The present invention relates generally to agricultural growing apparatuses and methods. More specifically the present invention relates to a dynamic, modular, rotating apparatus, and methods related to the apparatus' use and/or function.

The invention provides flexible or rigid vessels in different configurations with openings at their ends and a hollow body between them for growing plants. The hollow body is filled with a growing medium to manipulate the routing of the plants roots. Such vessels allow growth of plants in a limited space without compromising the ability of the plants to grow roots of natural length; enabling resource savings by reducing amounts of the growing medium and nutrients and their dispersion to the surrounding, evaporation and water infiltration. These advantages result in a reduction of weight of the growing medium for growing roots. These vessels also protect the plant roots from pests and weeds and allow the plants to grow even in unsuitable terrain, such as rocky, salty or contaminated soil. Also, the vessels can be used to grow plants for ornamental purposes in a beautiful and aesthetic way.

A solar-powered aeration device for sludge turnover and planting includes a grow bed fixed on a floating body and floats on water. A bottom of the floating body is fixedly connected with an inner pipe; an outer pipe is sleeved outside the inner pipe. The outer pipe is nested in an air chamber; a bottom of the air chamber communicates and is fixedly connected with a water inlet pipe; the water inlet pipe laterally communicates with a suction tube. An aeration ring is fixedly arranged at a bottom of the outer pipe, and the aeration tube has an air outlet pipe in communication with the outside. A movable foot is rotationally provided at a tail end of the suction tube, and the movable foot adapts to surface fluctuations to swing in a range limited by an angle limiter.

A solar-powered aeration device for sludge turnover and planting includes a grow bed fixed on a floating body and floats on water. A bottom of the floating body is fixedly connected with an inner pipe; an outer pipe is sleeved outside the inner pipe. The outer pipe is nested in an air chamber; a bottom of the air chamber communicates and is fixedly connected with a water inlet pipe; the water inlet pipe laterally communicates with a suction tube. An aeration ring is fixedly arranged at a bottom of the outer pipe, and the aeration tube has an air outlet pipe in communication with the outside. A movable foot is rotationally provided at a tail end of the suction tube, and the movable foot adapts to surface fluctuations to swing in a range limited by an angle limiter.

A hydroponic plant container configured to facilitate the hydroponic growing of a plant wherein the container is configured to provide access to the root ball and other elements disposed therein without engaging the plant. The hydroponic plant container includes a body having a first portion and a second portion. The first portion and the second portion are defined by the same walls and bottom wherein the second portion is offset to the first portion. The first portion and the second portion have an interior volume that is fluidly coupled wherein the interior volume of the second portion is configured to provide a user access to the interior volume of the first portion. The first portion is provided in a preferred shape of round or square. The first portion further includes opposing lip members that are formed on the upper perimeter edge thereof.

The invention is a customizable, slidable shelving and support apparati and system for supporting, storing and accessing horticultural and agricultural specimens within growing spaces, allowing growers to utilize the maximum amount of their linear horizontal and vertical grow space and service specific areas of the garden enterprise while also allowing for maximum workspace through the use of a table and track system that provides stackable options of multiple grow layers. A method of using this slidable shelving and support apparati and system is also included.

A raised garden box assembly. The raised garden box assembly may include a plurality of hollow sidewalls, each hollow sidewall may have a top rail, a bottom rail, an inner side member and an outer side member, where the top rail is connected to an outer side member and an inner side member and the bottom rail is also connected to the inner side member and the outer side member. The outer side member and the inner side member may form a hollow interior space and each of the plurality of hollow sidewalls may include a plurality of support ribs, each of the plurality of support ribs may directly contact the outer side member and the inner side member. The top rail, bottom rail, outer side member, inner side member and plurality of support ribs of each hollow sidewall may be integrally formed as a single unitary piece via an extrusion process. The raised garden box assembly may also include a plurality of hollow corner posts, each corner post having a first and second opening, where each of the first and second openings may receive a terminating end of one of the plurality of hollow sidewalls, the plurality of hollow sidewalls and corner posts forming an enclosure.

The present invention includes a plant holding unit for supporting a plant on a generally vertical member. A plant container held by plant holding unit is held below a plane approximately normal to the outer surface of the generally vertical member. The plant holding unit is configured to support a plant container on a generally vertical member. The plant holding unit includes an opening having an axis and a perimeter edge, wherein the axis is approximately perpendicular to the first plane defining a general direction of plant growth. The plant holding unit also includes a barrier extending generally vertically from and attached to the perimeter edge, wherein the barrier forms a water retaining area.

A flower bed system includes an elongated frame having a first side bar and second side bar in a longitudinal direction thereof, a first and a second riser removably attached to the first and second side bar, respectively, the first riser having a first notch away from the first side bar by a predetermined distance and the second riser having a second notch away from the second side bar by approximately the same predetermined distance, and a flowerpot holder having a first and second pin rigidly protruding from opposite sides thereof, respectively, the first and the second pin being substantially aligned in an axial line transverse a center of the flowerpot holder, wherein the first and second pin removably rest in the first and second notch, respectively, so that the flowerpot holder can rotate freely around the axial line.

A stackable growth media filled porous fabric block-shaped container includes either an internal seed carrier to facilitate the growth of various plants from within the block, or an outer three-dimensional open structure media retention sleeve to support external growth of vegetation via hydromulching into the sleeve. A plurality of the containers may be stacked or laid side by side to create a vegetated retaining wall or a vegetated slope facing. The porous fabric block-shaped containers are filled with growth medium that encourages plant growth, while allowing proper drainage and moisture retention. The seed carrier is a degradable or porous material coated with or supporting seeds and other amendments which facilitate plant growth. The open structure media retention sleeve includes loops of filaments to increase friction between blocks and to hold hydromulch on exposed surfaces.